Erlang is a programming language which has many features more commonly
associated with an operating system than with a programming language:
concurrent processes, scheduling, memory management, distribution,
networking, etc.

The initial open-source Erlang release contains the implementation of
Erlang, as well as a large part of Ericsson's middleware for building
distributed high-availability systems.

Log message:
Bump for perl-5.20.0.
Do it for all packages that
* mention perl, or
* have a directory name starting with p5-*, or
* depend on a package starting with p5-
like last time, for 5.18, where this didn't lead to complaints.
Let me know if you have any this time.

Log message:
From https://github.com/erlang/otp/pull/46#i … t-21719585
"Since b29ecbd (OTP-10418, R15B03) Erlang does not compile anymore with
old versions of GCC that do not have atomic ops builtins on platforms
where there is no native ethread implementation (e.g. ARM): (...)
Please note however that I will be merging this branch as well,
which will mean that you have to explicitly tell configure that
you intend to use the fallback atomic operations though
--disable-native-ethr-impls or --disable-smp-require-native-atomics."
Translated: On NetBSD-5.1 (with gcc-4.1.3) the erlang package
didn't compile because of
> ../include/internal/gcc/ethr_membar.h:49:4: error:
> #error "No __sync_val_compare_and_swap"
Adding the abovementioned option --disable-native-ethr-impls make the
Erlang runtime system use the original (now fallback) code. This should
maybe be an pkg option, but for now this has to do.

Log message:
Update Erlang/OTP to R16B02.
R16B02 is the second maintenance release for the R16B major release.
You can find the README file for the release at
http://www.erlang.org/download/otp_src_R16B02.readme
R16B01 is the first maintenance release for the R16B major release.
You can find the README file for the release at
http://www.erlang.org/download/otp_src_R16B01.readme
Highlights for R16B01:
OTP-10279 == erts ==
Support for migration of memory carriers between memory
allocator instances has been introduced.
By default this feature is not enabled and do not effect the
characteristics of the system. When enabled it has the
following impact on the characteristics of the system:
-- Reduced memory footprint when the memory load is unevenly
distributed between scheduler specific allocator instances.
-- Depending on the default allocaton strategy used on a
specific allocator there might or might not be a slight
performance loss.
-- When enabled on the fix_alloc allocator, a different
strategy for management of fix blocks will be used.
-- The information returned from
erlang:system_info({allocator, A}), and
erlang:system_info({allocator_sizes, A}) will be slightly
different when this feature has been enabled. An mbcs_pool
tuple will be present giving information about abandoned
carriers, and in the fix_alloc case no fix_types tuple will
be present.
For more information, see the documentation of the +M<S>acul
command line argument.
OTP-11009 == ssl public_key crypto common_test dialyzer ssh stdlib snmp
inets ==
Integrate elliptic curve contribution from Andreas Schultz
In order to be able to support elliptic curve cipher suites
in SSL/TLS, additions to handle elliptic curve infrastructure
has been added to public_key and crypto.
This also has resulted in a rewrite of the crypto API to gain
consistency and remove unnecessary overhead. All OTP
applications using crypto has been updated to use the new
API.
Impact: Elliptic curve cryptography (ECC) offers equivalent
security with smaller key sizes than other public key
algorithms. Smaller key sizes result in savings for power,
memory, bandwidth, and computational cost that make ECC
especially attractive for constrained environments.
OTP-11159 == erts ==
Lift static limitation (FD_SETSIZE) for file descriptors on
Mac OS X. (Thanks to Anthony Ramine)